程年才

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发布时间:
2021-05-11
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程年才,教授,博导。入选福建省闽江学者、福建省引进高层次人才B类人才。研究领域为氢能及燃料电池,致力于研究电解水及燃料电池中的关键材料及器件等。已经实现了Pt基催化剂和氧化铱催化剂批量化制备技术和工艺。目前主持国家自然科学基金及福建省高校产学研等项目多项,在Nature Communications, Adv. Mater., Energy Environ. Sci.等学术刊物上发表SCI论文100余篇论文,获得了17件授权发明专利。

E-mailniancaicheng@fzu.edu.cn

ResearchGate: https://www.researchgate.net/profile/Niancai-Cheng-2

学习经历:

2008.10-2009.09    英国巴斯大学 博士联合培养         导师: Frank Marken教授        

2007.09-2010.06   武汉理工大学材料复合新技术国家重点实验室 博士, 导师:潘牧教授

2004.09-2007.06    武汉理工大学材料复合新技术国家重点实验室   硕士   导师:木士春教授

1999.09-2003.06    武汉理工大学材料学院  本科

工作经历:

2016.11-至今, 福州大学,材料科学与工程学院,闽江学者特聘教授  

2012.06-2016.09 加拿大西安大略大学  博士后   合作导师:孙学良院士

2011.03-2012.02 美国伊利诺伊大学厄巴纳-香槟分校  博士后 合作导师:Andrzej  Wieckowski教授

主要研究方向:

 1. 质子交换膜燃料电池(Proton exchange membrane fuel cell, PEMFC)关键材料

  1)高效低Pt、超低Pt催化剂; 2)非贵金属催化剂; 3)产业化 Pt/CPt-M/C催化剂。

2. 电解水催化剂

3. -硫电池关键材料

4.  原子层沉积技术(atomic layer depositionALD在新能源材料中的应用

科研成果:

1)学术论文:

2025年:

[1] Yangyang Tan, Zeyi Zhang, Fei Guo, Suhao Chen, Haoran Jiang, Runzhe Chen, Zichen Wang, Qianwei Chen, Pei Yuan, ShuJuan Bao, Maowen Xu, Niancai Cheng. Highly Defective Ultrafine Carbon Nanoreactors Enriched with EdgeType ZnN3P1 Moiety Boosting Oxygen Electrocatalysis [J]. Advanced Materials, 2025, 2503254.

[2] Yu Zhu, Fei Guo, Qiliang Wei, Feiyan Lai, Runzhe Chen, Jianing Guo, Manxi Gong, Shunqiang Zhang, Zichen Wang, Jun Zhong, Guanjie He, Niancai Cheng. Engineering the Metal/Oxide Interfacial O-Filling Effect to Tailor Oxygen Spillover for Efficient Acidic Water Oxidation [J]. Advanced Functional Materials, 2025, 35 (22), 2421354.

[3] Yu Zhu, Zhixiong Cai, Qiliang Wei, Runzhe Chen, Fei Guo, Yinghui Jiang, Yong Xiao, Jianing Guo, Zichen Wang, Jun Zhong, Niancai Cheng. Asymmetric Electron Transport-Induced Formation of High-Valent IrOx in NiFeOOH Heterostructure for Efficient Water Oxidation [J]. Advanced Functional Materials, 2025, 2503692.

[4] Yong Xiao, Zichen Wang, Zhirang Liu, Qiliang Wei, Wei Qu, Yinghui Jiang, Haoran Jiang, Runzhe Chen, Haifeng Lv, Jun Zhong, Niancai Cheng. Atomically Dispersed PtNx and CeNx Dual Sites Enhance PtCe Nanoparticles for Oxygen Reduction Reaction [J]. Advanced Functional Materials, 2025, e05593.

[5] Haoran Jiang, Yong Xiao, Zhirang Liu, Zichen Wang, Bojian Wei, Qiliang Wei, Niancai Cheng. Inserted-B atoms modulating electronic structure of Pt enhancing hydrogen evolution under Universal-pH [J]. Journal of Colloid and Interface Science, 2025, 684: 95-104.

[6] Zichen Wang, Jiancan Zhang, Qiliang Wei, Fei Guo, Runzhe Chen, Haoran Jiang, Wei Wu, Yu Zhu, Suhao Chen, Yandong Wang, Feiyan Lai, Niancai Cheng. Tailored electronic interaction between metal-support trigger reverse hydrogen spillover for efficient hydrogen evolution [J]. Journal of Colloid and Interface Science, 2025, 687: 423-31.

[7] Haoran Jiang, Zhirang Liu, Zichen Wang, Wangbin Zhu, Qiliang Wei, Fei Guo, Wei Chen, Yinghui Jiang, Heng Zhu, Niancai Cheng. Confined cerium oxide clusters induced interface engineering enhance platinum nanoparticles for efficient ethanol oxidation reaction [J]. Journal of Colloid and Interface Science, 2025, 138254.

[8] Yu Zhu, Yinghui Jiang, Lifan Ye, Zichen Wang, Qiliang Wei, Niancai Cheng. Tailoring the d-band center of ordered Pd-Zn pair in ultra-small PdZn intermetallic for efficient methanol oxidation [J]. Nano Research, 2025, 18 (8), 94907563.

2024年:

[1] Zichen Wang, Wei Wu, Haoran Jiang, Suhao Chen, Runzhe Chen, Yu Zhu, Yong Xiao, Haifeng Lv*, Jun Zhong*, Niancai Cheng*. Ti Single Atom Enhancing Pt-Based Intermetallics for Efficient and Durable Oxygen Reduction. Advanced Functional Materials, 2024, 34(44): 2406347.

[2] Yangyang Tan, Zeyi Zhang, Suhao Chen, Wei Wu, Liyue Yu, Runzhe Chen, Fei Guo, Zichen Wang, Niancai Cheng*. Local Geometric Distortion to Stimulate Oxygen Reduction Activity of Atomically Dispersed Zn-Nx Sites for Zn–Air Batteries. Advanced Functional Materials, 2024, 34(10): 2311337.

[3] Runzhe Chen, Yunkai Yang, Wei Wu, Suhao Chen, Zichen Wang, Yu Zhu, Niancai Cheng*. Reconstructed β-NiOOH enabling highly efficient and ultrastable oxygen evolution at large current density . Chemical Engineering Journal, 2024, 480: 148100.

[4] Xuwen Chen, Lifan Ye, Wei Wu, Suhao Chen, Zichen Wang, Yu Zhu, Haoran Jiang, Runzhe Chen, Niancai Cheng*. Compressed Ru skin on atomic-ordered hexagonal Ru-Ni enabling rapid Volmer-Tafel kinetics for efficient alkaline hydrogen evolution. Chemical Engineering Journal, 2024, 487: 150457.

[5] Wei Wu, Wei Qu, Zichen Wang, Yangyang Tan, Runzhe Chen, Suhao Chen, Haifeng Lv*, Jun Zhong, Niancai Cheng*. Single-atom Al precisely modulate the strain of Pt3Co intermetallic for superior oxygen catalytic performance. Chemical Engineering Journal, 2024, 491: 151987.

[6] Yu Zhu, Shunqiang Zhang, Runzhe Chen, Zichen Wang, Wei Wu, Haoran Jiang, Heyuan Chen, Niancai Cheng*. Controllable Electronic Transfer Tailoring d-band Center via Cobalt–Oxygen-Bridged Ru/Fe Dual-sites for Boosted Oxygen Evolution . Small, 2024, 20(25): 2310611.

[7] Ming Zheng, Junzhe Zhao, Wei Wu, Runzhe Chen, Suhao Chen, Niancai Cheng*. Co/CoS2 Heterojunction Embedded in N, S-Doped Hollow Nanocage for Enhanced Polysulfides Conversion in High-Performance Lithium–Sulfur Batteries. Small, 2024, 20(3): 2303192.

[8] Zeyi Zhang, Wei Wu, Suhao Chen, Zichen Wang, Yangyang Tan, Wei Chen, Fei Guo, Runzhe Chen, Niancai Cheng*. Directed Dual Charge Pumping Tunes the d-Orbital Configuration of Pt Cluster Boosting Hydrogen Evolution Kinetic. Small, 2024, 20(22): 2307135.

[9] Ruijian Luo, Junzhe Zhao, Ming Zheng, Zichen Wang, Shunqiang Zhang, Jiancan Zhang, Yong Xiao, YingHui Jiang, Zhixiong Cai, Niancai Cheng*. Built-in Electric Field Within CoSe2-FeSe2 Heterostructure for Enhanced Sulfur Reduction Reaction in Li-S Batteries . Small, 2024, 20(49): 2406415.

[10] Ming Zheng, Wei Wu, Ruijian Luo, Suhao Chen, Junzhe Zhao, Niancai Cheng*. Constructing stronger interaction with polysulfides for faster conversion of Li2S2 to Li2S by Co-CoSe2@N, Se-doped carbon nanocages in lithium-sulfur batteries. Journal of Materials Science & Technology, 2024, 195: 165-76.

[11] Haoran Jiang, Zichen Wang, Suhao Chen, Yong Xiao, Yu Zhu, Wei Wu, Runzhe Chen, Niancai Cheng*. Atomic controlled shell thickness on Pt@Pt3Ti core-shell nanoparticles for efficient and durable oxygen reduction . Journal of Materials Science & Technology, 2025, 205: 212-20.

[12] Runzhe Chen, Zichen Wang, Suhao Chen, Liang Wang, Wei Wu, Yu Zhu, Niancai Cheng*. Optimizing Intermediate Adsorption on Pt Sites via Triple-Phase Interface Electronic Exchange for Methanol Oxidation. Inorganic Chemistry, 2024, 63(9): 4364-72.

2023年:

[1] Zichen Wang, Suhao Chen, Wei Wu, Runzhe Chen, Yu Zhu, Haoran Jiang, Liyue Yu, Niancai Cheng*. Tailored Lattice Compressive Strain of Pt-Skins by the L12-Pt3M Intermetallic Core for Highly Efficient Oxygen Reduction . Advanced Materials, 2023, 35(36): 2301310.

[2] Runzhe Chen, Zichen Wang, Suhao Chen, Wei Wu, Yu Zhu, Jun Zhong*, Niancai Cheng*. Activating Lattice Oxygen in Spinel Oxides via Engineering Octahedral Sites for Oxygen Evolution. ACS Energy Letters, 2023, 8(8): 3504-11.

[3] Yangyang Tan, Zeyi Zhang, Wei Wu, Suhao Chen, Wei Chen, Niancai Cheng*. Breaking Volmer step limitation on NiO/PtNi heterojunctions via ATO-induced charge injection and interfacial modulation. Applied Catalysis B: Environmental, 2023, 331: 122684.

[4] Wei Wu, Runzhe Chen, Suhao Chen, Zichen Wang, Niancai Cheng*. Optimizing d-Orbital Electronic Configuration via Metal-Metal Oxide Core-Shell Charge Donation for Boosting Reversible Oxygen Electrocatalysis. Small, 2023, 19(25): e2300621.

[5] Fei Guo, Zeyi Zhang, Runzhe Chen, Yangyang Tan, Wei Wu, Zichen Wang, Tang Zeng, Wangbin Zhu, Caoxin Lin, Niancai Cheng*. Dual roles of sub-nanometer NiO in alkaline hydrogen evolution reaction: breaking the Volmer limitation and optimizing d-orbital electronic configuration. Mater Horiz, 2023, 10(8): 2913-20.

[6] Heyuan Chen, Wei Wu, Suhao Chen, Zichen Wang, Runzhe Chen, Niancai Cheng*. Tailoring the d-band center of porous CoS2 nanospheres via low-electronegative Fe for weakened OH* adsorption and boosted oxygen evolution . Inorganic Chemistry Frontiers, 2023, 10(19): 5668-77.

2022年:

[1] Yandong Wang, Wei Wu, Runzhe Chen, Caoxin Lin, Shichun Mu*, Niancai Cheng*. Reduced water dissociation barrier on constructing Pt-Co/CoOx interface for alkaline hydrogen evolution . Nano Research, 2022, 15(6): 4958-64.

[2] Yangyang Tan, Zeyi Zhang, Zhao Lei, Liyue Yu, Wei Wu, Zichen Wang, Niancai Cheng*. Electronic modulation optimizes OH* intermediate adsorption on Co-Nx-C sites via coupling CoNi alloy in hollow carbon nanopolyhedron toward efficient reversible oxygen electrocatalysis . Applied Catalysis B: Environmental, 2022, 304: 121006.

[3] Yuquan Lai, Zhaoting Zhang, Zeyi Zhang, Yangyang Tan, Liyue Yu, Wei Wu, Zichen Wang, Tao Jiang, Songhua Gao, Niancai Cheng*. Electronic modulation of Pt nanoclusters through tuning the interface of Pt-SnO2 clusters for enhanced hydrogen evolution catalysis. Chemical Engineering Journal, 2022, 435: 135102.

[4] Tao Jiang, Liyue Yu, Zhengjian Zhao, Wei Wu, Zichen Wang, Niancai Cheng*. Regulating the intermediate affinity on Pd nanoparticles through the control of inserted-B atoms for alkaline hydrogen evolution. Chemical Engineering Journal, 2022, 433: 133525.

[5] Runzhe Chen, Zeyi Zhang, Zichen Wang, Wei Wu, Shaowu Du, Wangbin Zhu, Haifeng Lv*, Niancai Cheng*. Constructing Air-Stable and Reconstruction-Inhibited Transition Metal Sulfide Catalysts via Tailoring Electron-Deficient Distribution for Water Oxidation. ACS Catalysis, 2022, 12(21): 13234-46.

[6] Zeyi Zhang, Yangyang Tan, Tang Zeng, Liyue Yu, Runzhe Chen, Niancai Cheng*, Shichun Mu*, Xueliang Sun*. Tuning the dual-active sites of ZIF-67 derived porous nanomaterials for boosting oxygen catalysis and rechargeable Zn-air batteries. Nano Research, 2021, 14(7): 2353-62.

[7] Zichen Wang, Liang Wang, Wangbin Zhu, Tang Zeng, Wei Wu, Zhao Lei, Yangyang Tan, Haifeng Lv*, Niancai Cheng*. Pt3Sn nanoparticles enriched with SnO2/Pt3Sn interfaces for highly efficient alcohol electrooxidation. Nanoscale Advances, 2021, 3(17): 5062-7.

[8] Yangyang Tan, Wangbin Zhu, Zeyi Zhang, Wei Wu, Runzhe Chen, Shichun Mu*, Haifeng Lv*, Niancai Cheng*. Electronic tuning of confined sub-nanometer cobalt oxide clusters boosting oxygen catalysis and rechargeable Zn–air batteries. Nano Energy, 2021, 83: 105813.

[9] Zhao Lei, Yangyang Tan, Zeyi Zhang, Wei Wu, Niancai Cheng*, Runzhe Chen, Shichun Mu*, Xueliang Sun*. Defects enriched hollow porous Co-N-doped carbons embedded with ultrafine CoFe/Co nanoparticles as bifunctional oxygen electrocatalyst for rechargeable flexible solid zinc-air batteries. Nano Research, 2021, 14(3): 868-78.

[10] Fei Guo, Zhijin Zou, Zeyi Zhang, Tang Zeng, Yangyang Tan, Runzhe Chen, Wei Wu, Niancai Cheng*, Xueliang Sun*. Confined sub-nanometer PtCo clusters as a highly efficient and robust electrocatalyst for the hydrogen evolution reaction. Journal of Materials Chemistry A, 2021, 9(9): 5468-74.

[11] Yu Zhu, Zeyi Zhang, Zhao Lei, Yangyang Tan, Wei Wu, Shichun Mu*, Niancai Cheng*. Defect-enriched hollow porous Co–N-doped carbon for oxygen reduction reaction and Zn-Air batteries . Carbon, 2020, 167: 188-95.

[12] Wei Wu, Zeyi Zhang, Zhao Lei, Xiaoyue Wang, Yangyang Tan, Niancai Cheng*, Xueliang Sun*. Encapsulating Pt Nanoparticles inside a Derived Two-Dimensional Metal–Organic Frameworks for the Enhancement of Catalytic Activity. ACS Applied Materials & Interfaces, 2020, 12(9): 10359-68.

[13] Liang Wang, Wei Wu, Zhao Lei, Tang Zeng, Yangyang Tan, Niancai Cheng*, Xueliang Sun*. High-performance alcohol electrooxidation on Pt3Sn–SnO2 nanocatalysts synthesized through the transformation of Pt–Sn nanoparticles. Journal of Materials Chemistry A, 2020, 8(2): 592-8.

[14] Yangyang Tan, Zeyi Zhang, Zhao Lei, Wei Wu, Wangbin Zhu, Niancai Cheng*, Shichun Mu*. Thiourea-Zeolitic imidazolate Framework-67 assembly derived Co–CoO nanoparticles encapsulated in N, S Codoped open carbon shell as bifunctional oxygen electrocatalyst for rechargeable flexible solid Zn–Air batteries. Journal of Power Sources, 2020, 473: 228570.

[15] Jiefei Shan, Tang Zeng, Wei Wu, Yangyang Tan, Niancai Cheng*, Shichun Mu*. Enhancement of the performance of Pd nanoclusters confined within ultrathin silica layers for formic acid oxidation. Nanoscale, 2020, 12(24): 12891-7.

[16] Caoxin Lin, Zhiqiao Huang, Zeyi Zhang, Tang Zeng, Runzhe Chen, Yangyang Tan, Wei Wu, Shichun Mu, Niancai Cheng*. Structurally Ordered Pt3Co Nanoparticles Anchored on N-Doped Graphene for Highly Efficient Hydrogen Evolution Reaction. ACS Sustainable Chemistry & Engineering, 2020, 8(45): 16938-45.

[17] Runzhe Chen, Yangyang Tan, Zeyi Zhang, Zhao Lei, Wei Wu, Niancai Cheng*, Shichun Mu*. Hydrazine Hydrate Induced Two-Dimensional Porous Co3+ Enriched Co3O4 Nanosheets for Enhanced Water Oxidation Catalysis. ACS Sustainable Chemistry & Engineering, 2020, 8(26): 9813-21.

[18] Yu Zhu, Zeyi Zhang, Wenqiang Li, Zhao Lei, Niancai Cheng*, Yangyang Tan, Shichun Mu*, Xueliang Sun*. Highly Exposed Active Sites of Defect-Enriched Derived MOFs for Enhanced Oxygen Reduction Reaction . ACS Sustainable Chemistry & Engineering, 2019, 7(21): 17855-62.

[19] Jiefei Shan, Zhao Lei, Wei Wu, Yangyang Tan, Niancai Cheng*, Xueliang Sun*. Highly Active and Durable Ultrasmall Pd Nanocatalyst Encapsulated in Ultrathin Silica Layers by Selective Deposition for Formic Acid Oxidation . ACS Applied Materials & Interfaces, 2019, 11(46): 43130-7.

[20] Wei Chen, Zhao Lei, Tang Zeng, Liang Wang, Niancai Cheng*, Yangyang Tan, Shichun Mu*. Structurally ordered PtSn intermetallic nanoparticles supported on ATO for efficient methanol oxidation reaction . Nanoscale, 2019, 11(42): 19895-902.

[21] Cheng, N.; Stambula, S.; Wang, D.; Banis, M. N.; Liu, J.; Riese, A.; Xiao, B.; Li, R.; Sham, T. K.; Liu, L. M.; Botton, G. A.; Sun, X., Platinum single-atom and cluster catalysis of the hydrogen evolution reaction. Nat Commun 2016, 7, 13638.

[22] Cheng, N.; Banis, M. N.; Liu, J.; Riese, A.; Li, X.; Li, R.; Ye, S.; Knights, S.; Sun, X., Extremely stable platinum nanoparticles encapsulated in a zirconia nanocage by area-selective atomic layer deposition for the oxygen reduction reaction. Adv Mater 2015, 27 (2), 277-81.

[23] Cheng, N. C.; Banis, M. N.; Liu, J.; Riese, A.; Mu, S. C.; Li, R. Y.; Sham, T. K.; Sun, X. L., Atomic scale enhancement of metal-support interactions between Pt and ZrC for highly stable electrocatalysts. Energ Environ Sci 2015, 8 (5), 1450-1455.

2)授权发明专利:

1. 一种铂硼共掺杂的负载型钯基催化剂及其制备方法与应用;程年才,江涛;ZL 202210721505.1

2. 一种氮掺杂多孔碳球/S复合材料及其制备方法和在锂硫电池中的应用;程年才,俞立跃;ZL 2022 1 0567983.1

3.  一种二维超薄氮掺杂碳化钼纳米片的制备方法;程年才,王延东;ZL 2022 1 0694416.2

4. 一种提高过渡金属硫化物催化剂稳定性的方法;程年才,陈润喆;ZL 2021 1 1503069.2

5. 一种基于水系ZIF衍生的多孔碳球及其制备方法和应用;程年才,谭洋洋;ZL 2022 1 0644869.4

6. 一种碳化物负载金属催化剂的制备方法及应用;程年才,王延东;ZL 2022 1 0690541.6

7. 一种碳载体活化提高燃料电池碳载铂基催化剂稳定性的方法;程年才,王子辰;ZL 2021 1 1638263.1

8. 一种原子层沉积金属/金属氧化物限域制备燃料电池Pt合金催化剂的方法;程年才,吴威;ZL 2023 1 0032966.2

9. 一种杂原子掺杂中空碳材料的制备方法及其在锂硫电池中的应用;程年才,俞立跃;ZL 2022 1 0690506.4

10. 超薄多孔碳层保护的Pt基合金催化剂的制备方法;程年才,吴威;ZL 2023 1 0035180.6

11. 一种高活性碳基多孔纳米笼催化剂及其制备方法和应用;程年才,谭洋洋;ZL 2022 1 0885625.5

12. 一种基于水系ZIF衍生的中空球型碳基催化剂及其制备方法和应用;程年才,谭洋洋;ZL 2022 1 0644723.X

13. 一种金属氮化物限域制备Pt基有序合金燃料电池催化剂的方法;程年才,吴威;ZL 2023 1 0032727.7

14. 一种限域制备燃料电池用合金催化剂的方法;程年才,吴威;ZL 2022 1 0538139.6

15. 一种用于燃料电池的铂基有序合金催化剂及其制备方法;程年才,王子辰;ZL 2022 1 0165666.7

16. 一种用于燃料电池的金属氧化物复合碳载铂基催化剂及其制备方法;程年才,赖玉权;王子辰;ZL 2021 1 1640912.1

17. 一种金属氮化物稳定Pt基合金燃料电池催化剂的制备方法; 程年才,吴威; ZL 2023 1 0035177.4